INIS
nanofluids
100%
particles
100%
transport
100%
coolants
100%
effective mass
33%
solvents
33%
investigations
33%
aspect ratio
16%
suspensions
16%
energy
16%
rods
16%
turbulence
16%
reduction
16%
economics
16%
comparative evaluations
16%
shape
16%
ethylene glycols
16%
storage
16%
dispersions
16%
viscosity
16%
thermal diffusivity
16%
heat transfer
16%
thermal conductivity
16%
velocity
16%
equations
16%
water
16%
data
16%
energy consumption
16%
swimming
16%
Earth and Planetary Sciences
Thermal Transport
100%
Transport Property
100%
Augmentation
66%
Diffusivity
50%
Order
33%
Solvent
33%
Investigation
33%
Shape
33%
Literature
16%
Turbulence
16%
Rod
16%
Data Storage
16%
Heat Transfer
16%
Aspect Ratio
16%
Engineering
Nanofluid
100%
Enhancement
80%
Mass Diffusivity
60%
Active Particle
20%
Velocity
20%
Heat Transfer
20%
Experimental Investigation
20%
Mechanisms
20%
Turbulence
20%
Aspect Ratio
20%
Reduce Energy Consumption
20%
Fluid Viscosity
20%
Theoretical Investigation
20%
Rod
20%
Reduction
20%
Energy Engineering
20%
Material Science
Coolant
100%
Particle
100%
Diffusivity
66%
Water
16%
Thermal Conductivity
16%
Viscosity
16%
Chemical Engineering
Diffusion
100%
Thermal Conductivity
33%
Ethylene Glycol
33%
Water
33%
Heat Transfer
33%